Abstract
The wiretap channel models secure communication between two users in the presence of an eavesdropper who must be kept ignorant of transmitted messages. This communication scenario is studied for arbitrarily varying channels (AVCs), in which the legitimate users know only that the true channel realization comes from a pre-specified uncertainty set and that it varies from channel use to channel use in an arbitrary and unknown manner. This concept not only captures the case of channel uncertainty, but also models scenarios in which malevolent adversaries influence or jam the transmission of the legitimate users. For secure communication over orthogonal arbitrarily varying wiretap channels (AVWCs) it has been shown that the phenomenon of super-activation occurs; that is, there are orthogonal AVWCs, each having zero secrecy capacity, which allow for transmission with positive rate if they are used together. It is shown that for such orthogonal AVWCs super-activation is generic in the sense that whenever super-activation is possible, it is possible for all AVWCs in a certain neighborhood as well. As a consequence, a super-activated AVWC is robust and continuous in the uncertainty set, although a single AVWC might not be. Moreover, it is shown that the question of super-activation and the continuity of the secrecy capacity solely depends on the legitimate link. Accordingly, the single-user AVC is subsequently studied and it is shown that in this case, super-activation for non-secure message transmission is not possible making it a unique feature of secure communication over AVWCs. However, the capacity for message transmission of the single-user AVC is shown to be super-additive including a complete characterization. Such knowledge is important for medium access control and in particular resource allocation as it determines the overall performance of a system.
Highlights
The architecture of today’s communication systems is designed such that data encryption and error correction are clearly separated
We model the uncertainty in channel state information (CSI) by assuming arbitrarily varying channels (AVCs) [12,13,14]
We show that the secrecy capacity of a super-activated arbitrarily varying wiretap channels (AVWCs) is continuous in the underlying uncertainty set, this might not be the case for one of the AVWCs itself
Summary
The architecture of today’s communication systems is designed such that data encryption and error correction are clearly separated. Super-activation can occur for secure communication over AVCs and there exist orthogonal “useless” AVWCs, i.e., having zero secrecy capacity, whose overall secrecy capacity is strictly positive [17] This phenomenon of super-activation and its resulting secrecy capacity have been completely characterized in [21]. This has not been done so far to the best of our knowledge and we show that super-activation is not possible for public message transmission, making this a unique phenomenon of secure communication over AVWCs. we show that the single-user AVC possesses the property of super-additivity which means that a joint use of orthogonal AVCs can provide gains in capacity.
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